KR101751253B1 - Photovoltaic equipment - Google Patents

Abstract

The solar photovoltaic device of the present invention has an advantage that solar light absorbing efficiency of the solar cell plate can be enhanced by refracting sun light through water contained in the condenser lens part and condensing it, and utilization of excellentness can be improved.
In addition, the photovoltaic device of the present invention is advantageous in that the condensing lens portion filled with water adheres to the solar cell plate, water of the condensing lens portion is evaporated by the heat of the solar cell plate, and the solar cell plate can be cooled.

Description

[0001] Photovoltaic equipment [

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar power generation device, and more particularly, to a solar power generation device capable of enhancing a light amount absorption efficiency of a solar cell module by condensing sunlight.

In general, photovoltaic generation is a technology for converting solar light into electric energy, and is a power generation method using a solar cell module that generates photovoltaic power by photoelectric effect when sunlight is irradiated.

A typical configuration of a photovoltaic power generation system is composed of a module composed of a solar cell, a battery, and a power conversion device. The types of solar cells include selenium photovoltaic cells and sulfurous copper photocells using metal and semiconductor contact, and silicon pylorus using semiconductor pn junctions. The advantages of such solar power generation are that the energy source is clean and unlimited, self-generating, easy maintenance, and unmanned. However, even if the production efficiency is lower than that of fossil fuels such as coal and petroleum, it is pointed out that it is difficult to maintain stable generation of power because the amount of electric power produced varies with the amount of solar radiation.

Accordingly, recently, as disclosed in Korean Patent Laid-Open Publication No. 10-0990752 and Korean Patent Registration No. 10-1337475, a variety of measures for increasing the solar power generation efficiency have been sought.

However, in the above-described prior arts, a solar cell must be disposed so that a reflector can be installed on the solar cell plate, or a solar cell having a fine heating wire or a heat ray member must be separately manufactured. It is difficult to apply and the equipment is complicated.

Korean Patent Publication No. 10-0990752: Photovoltaic device using reflector Korean Patent Registration No. 10-1337475: Structure of a solar cell module having a snow removal unit and a control method of the snow removal unit.

It is an object of the present invention to provide a photovoltaic power generation device capable of increasing the light quantity absorption efficiency of a solar cell with a simple structure without changing the structure of the solar cell or the solar cell module. have.

According to an aspect of the present invention, there is provided a photovoltaic device including: a solar cell plate having a plurality of solar cell modules; The solar cell module according to any one of claims 1 to 3, wherein the solar cell module is connected to a support unit installed on one side of a support frame that supports the solar cell plate and is located above the solar cell plate, A light condensing unit having at least one condenser lens part for refracting sunlight by water contained in the condensed light and condensing the condensed light onto the solar cell plate; A water storage tank connected to the water storage tank and provided at one side of a frame supporting the solar cell plate to supply water to the condenser lens unit, And a water supply unit provided in the water supply unit.

The condensing unit includes a base portion formed to correspond to the shape of the solar cell plate and disposed above the solar cell plate so as to be inclined, and the condenser lens portion includes a base portion And the support unit is formed so as to be narrowed to have an arc-shaped curvature downward as it goes downward, and is deflected to one end of the base unit, A rotating shaft rotatably coupled to the base portion to rotate the focusing unit disposed above the solar cell plate so as to be displaced from above the solar cell plate, a driving motor for rotating the rotating shaft, And a supporting member to be fixed.

The condensing unit includes a base portion formed to correspond to the shape of the solar cell plate and disposed above the solar cell plate so as to be inclined, and the condenser lens portion includes a base portion Wherein the base portion is formed so as to protrude downward with respect to the other surface of the base portion and to have a width in a direction orthogonal to the longitudinal direction of the base portion so as to have an arcuate curvature as the base portion is drawn in the longitudinal direction, And the supporting unit includes a pivot shaft that is coupled to the base unit and rotates so that the light collecting unit disposed above the solar cell plate is separated from the upper portion of the solar cell plate, A drive motor for rotating the pivot shaft, Or a support member fixed to the ground.

And a plurality of converging lens units are provided so as to be spaced apart from each other in a direction orthogonal to the longitudinal direction of the base unit, and the base unit further includes a plurality of converging lens units, And a concave portion formed so as to have an arc curvature approaching the upper surface of the base portion.

The condensing unit is installed in the supporting unit so that the condensing lens part is in close contact with the solar cell plate so that the water contained in the condensing lens unit absorbs heat of the solar cell plate to evaporate and cool the solar cell plate desirable.

The solar photovoltaic device of the present invention has an advantage that solar light absorbing efficiency of the solar cell plate can be enhanced by refracting sun light through water contained in the condenser lens part and condensing it, and utilization of excellentness can be improved.

In addition, the photovoltaic device of the present invention is advantageous in that the condensing lens portion filled with water adheres to the solar cell plate, water of the condensing lens portion is evaporated by the heat of the solar cell plate, and the solar cell plate can be cooled.

1 is a perspective view of a photovoltaic device according to a first embodiment of the present invention,
Fig. 2 is a partial cross-sectional view of the condensing unit of Fig. 1,
FIG. 3 is a perspective view of the photovoltaic device according to the second embodiment of the present invention, and FIG.
4 is a partially cut away perspective view of a solar cell apparatus according to a fourth embodiment of the present invention,
5 is a partial side view of the photovoltaic device according to the fifth embodiment of the present invention,
6 is a partial cross-sectional view of a photovoltaic device according to a sixth embodiment of the present invention.

Hereinafter, a photovoltaic apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 show a photovoltaic device 1 according to a first embodiment of the present invention.

Referring to the drawings, a solar cell generator 1 includes a solar cell plate 10, a support frame 20, a strut 30, a condenser unit 40, a support unit 50, (60).

The solar cell plate 10 is connected to a plurality of solar cell modules in series or in parallel to obtain electric power, and is supported by the support frame 20.

The support frame 20 is connected to upper portions of struts 30 installed upright on one side and the other side of the solar cell plate 10 to support the solar cell plate 10.

The structure and shape of the support frame 20 and the support 30 are not limited as long as they can support the solar cell plate 10 and the support frame 20 may be rotatably applied to the support There will be.

The light collecting unit 40 can be made of transparent acrylic or glass having a density equal to or higher than the density of water as a transparent material through which sunlight can be transmitted. The light collecting unit 40 is connected to a support unit 50, which will be described later, so as to be spaced upward from the solar cell plate 10 by a predetermined distance.

The condensing unit 40 is formed with at least one condensing lens unit 45 which projects downward to receive water and condenses the sunlight by water contained in the condensing unit 40 to be condensed on the solar cell plate 10.

The condensing unit 40 is further divided into a base portion 41 and a plurality of condenser lens portions 45.

The base unit 41 includes a support unit 50 disposed in parallel with the solar cell plate 10 formed so as to correspond to the area of the solar cell plate 10 so as to cover the solar cell plate 10 from above, ≪ / RTI >

The plurality of condenser lens units 45 are disposed on the inside of the base unit 41 so as to be spaced apart from each other at regular intervals in the longitudinal direction of the base unit and in the direction orthogonal to the longitudinal direction of the base unit.

The upper surface 46 of the condensing lens unit 45 is directed toward the solar cell plate with respect to one surface 42 of the base portion 41 and the lower surface 47 of the condensing lens unit 45 is directed toward the upper surface 46 of the condensing lens unit 45 And is protruded toward the solar cell plate with respect to the other surface 43 of the base portion 41 corresponding to the shape of the base plate 41. [ The condensing lens unit 45 is formed in a circular shape and is formed so as to be narrowed downward as it goes downward. The condensing lens unit 45 is protruded to one end of the base unit 41 so as to secure a large amount of water.

Here, the base portion 41 is the other end portion of the support unit 50 to be described later, to which the pivot shaft 51 is coupled, and the end portion located below the other end portion is the one end portion.

2, the condensing lens unit 45 includes a circular water receiving portion 48 having an arc-shaped curvature whose diameter becomes smaller toward the lower side so as to be filled with water in the form of a downward convex convex lens, And a base connecting portion 49 extending upward along the edge of the accommodating portion 48 and extending upward from the water accommodating portion 48 toward the other side and connected to the base portion.

The support unit 50 is fixed to the support frame or the ground to support the base unit positioned above the solar cell plate.

The support unit 50 is coupled with the base 41 so that the light collecting unit 40 is disposed above the solar cell plate 10 and the light collecting unit 40 is disposed above the solar cell plate 10 A driving motor 53 that rotates the pivot shaft 51 and a second motor 51 that is fixed to the support frame 20 or the ground (not shown) and rotatably supports the pivot shaft 51, And second support members (55, 56).

Referring to Fig. 1, the pivot shaft 51 is formed so as to correspond to an elongated length of the base portion 41 in the longitudinal direction. Each of the first and second support members 55 (not shown) is coupled to a support frame 20 that supports one end and the other end of the solar cell plate 10, And the other side is rotatably connected.

A coupling groove (not shown) corresponding to an extension length of the base portion in the longitudinal direction may be formed so that the other end of the base portion is inserted into the outer circumferential surface of the pivot shaft 51 and is fixed by an interference fit method or a heat fusion method.

The drive motor 53 is coupled to one end of the pivot shaft 51 which is provided on the second support member side and penetrates the second support member.

Although not shown, the drive motor 53 may be connected to a commercial power source by a wire, and may be supplied with power through the electric energy produced by the solar cell module.

The water supply unit 60 is connected to the water storage tank 61 and installed at one side of the support frame 20 or installed on the ground, And at least one nozzle (62) for supplying water to the portion.

The water storage tank 60 is desirably opened upward so that water or stormwater supplied by the manager can be stored.

1, the water supply unit connects the water storage tank 61 and the nozzle 62, and connects the water storage tank 61 and the nozzle 62, A pump 65 installed on one side of the water supply unit 64 for lifting the water in the water storage tank 61 to the nozzle 62 and a pump 65 for opening and closing the flow path of the water supply unit 64, A valve 66 is provided.

The operation of the photovoltaic device 1 according to the first embodiment of the present invention having the above-described configuration will be described.

The light condensing unit 40 may be positioned above the solar cell plate 10 or away from the upper side of the solar cell plate 10 by rotation of the rotation shaft 51 of the support unit 50 as necessary . The light collecting unit 40 is formed of a transparent material so that solar light can be transmitted to the solar cell plate 10, so that the solar cell plate can absorb solar light.

Water is filled in the water receiving portion 48 of the condenser lens portion 45 by the water sprayed upward from the base portion 41 by the nozzle 62 of the water supply unit 60, do. When the water receiving portion 48 is filled with water, the water receiving portion 48 becomes a flat convex lens made of two media together with water.

2, the sunlight is refracted through the water w and the water receiving portion 48 to form the light collecting portion c on the solar cell plate 10. As shown in Fig. It is a matter of course that the angle at which the sunlight passing through the water in the water receiving part 48 is refracted by the condensing lens part 45 may vary depending on the difference with the density of water.

As described above, the photovoltaic device 1 according to the first embodiment of the present invention is provided with a transparent light collecting unit above the solar photovoltaic plate, so that solar light can be absorbed over the entire surface of the solar cell plate, A plurality of light collecting portions for collecting solar light are formed, and the solar light absorbing efficiency of the solar cell plate can be increased.

FIG. 3 is a partially cutaway perspective view of the condensing unit of the photovoltaic device according to the second embodiment of the present invention. The solar photovoltaic device according to the second embodiment of the present invention is a solar photovoltaic device according to the first embodiment of the present invention in which the water or rainwater supplied to the light condensing unit 40 in the structure of the photovoltaic device 1 according to the first embodiment of the present invention, A plurality of channel grooves 149 connecting the condensing lens parts 45 adjacent to each other are formed in the base part 41. [

 The channel grooves 149 are drawn in the direction of the other surface 43 of the base portion with respect to the one surface 41 of the base portion 41 between the adjacent condenser lens portions 45. When the adjacent condenser lens portions are spaced apart from each other As shown in FIG.

The photovoltaic device according to the second embodiment of the present invention is advantageous in that water can be easily dispersed and stored in a plurality of condenser lens units 45 spaced at a predetermined interval by the flow channel.

On the other hand, FIG. 4 shows a partially cutaway perspective view of the condensing unit of the photovoltaic device according to the third embodiment of the present invention. The photovoltaic device 3 according to the third embodiment of the present invention is the same as the photovoltaic device according to the third embodiment except for the light condensing unit 40, And has the same structure as the photovoltaic device according to the first embodiment of the invention.

The condensing unit 240 according to the third embodiment of the present invention includes a base portion 241 and a plurality of condensing lens portions 245. [

The base unit 241 includes a support unit 50 arranged in parallel with the solar cell plate 10 formed to be inclined and corresponding to the area of the solar cell plate 10 so as to cover the solar cell plate 10 from above, ≪ / RTI >

The condensing lens unit 245 is downwardly pulled downward with respect to one surface of the base unit 241 in the longitudinal direction of the base unit 241 so that water can be received and protruded downward with respect to the other surface of the base unit, 241 are narrowed so as to have an arc-shaped curvature in a direction orthogonal to the longitudinal direction.

The condensing lens unit 245 may be filled with water to form a plano-convex lens shape together with water, and may be deflected to one end of the base unit 241 so as to secure an amount of water accommodated in the inclined base unit 241 Respectively. Here, the base portion 241 is the other end portion on the side where the pivot 51 of the support unit 50 is coupled, and the end portion located on the lower side of the other end portion is the one end portion.

As shown in FIG. 4, the condensing lens units 245 are provided at a predetermined distance from each other in a direction perpendicular to the longitudinal direction of the base unit 241. At this time, the longitudinal direction of the base portion 241 is parallel to the longitudinal direction of the solar cell plate 10.

5 is a partially cutaway perspective view of the condensing unit 340 of the photovoltaic device according to the fourth embodiment of the present invention. In the drawings, elements having the same function are denoted by the same reference numerals, and a detailed description thereof will be omitted. The condensing unit 340 of the photovoltaic device according to the fourth embodiment of the present invention further includes a concave portion 346 in the condensing unit 240.

5, the concave portion 346 is a portion formed on the bottom surface of the base portion 241. The bottom surface of the base portion 241 between adjacent condensing lens portions 245 is located on both sides of the condenser lens portion 245 The curvature of the curvature of the curved surface of the base portion 241 is increased.

The photovoltaic device according to the fourth embodiment of the present invention diffuses the sunlight around the light condensing portion c formed by the condensing lens portion 245 by the concave portion 346, There is an advantage that the light absorption area can be widened.

Meanwhile, FIG. 6 shows a photovoltaic device according to a fifth embodiment of the present invention. In the drawings, elements having the same function are denoted by the same reference numerals, and a detailed description thereof will be omitted. The condensing unit 40 of the photovoltaic device according to the fifth embodiment of the present invention is installed in close contact with the solar cell plate 10. [

The condensing unit 40 is configured such that the condensing lens unit 41 is mounted on the solar cell plate 10 so that the water contained in the condensing lens unit 41 absorbs the heat of the solar cell plate 10 and is evaporated, (50) so as to be in close contact with the base (10).

The first and second support members of the support unit 50 are extended such that the rotation axis 51 is located at a height at which the light condensing unit 40 and the solar cell plate 10 can be brought into close contact with each other Or may be applied to the support frame 20 in a liftable manner.

The photovoltaic apparatus according to the present invention has the advantage that the solar light absorbing efficiency of the solar cell plate can be increased by refracting and condensing the sunlight through the water contained in the condenser lens unit, and the utilization of the excellentness can be improved.

In addition, the photovoltaic device of the present invention is advantageous in that the condensing lens portion filled with water adheres to the solar cell plate, water of the condensing lens portion is evaporated by the heat of the solar cell plate, and the solar cell plate can be cooled.

While the present invention has been described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It will be appreciated that other embodiments are possible. Accordingly, the scope of the true technical protection of the present invention should be determined by the technical idea of the appended claims.

1: Photovoltaic device
10: solar cell plate 20: support frame
30: column 40: condensing unit
41: base 45: condenser lens part
48: water receiving portion 49: base portion connecting portion
50: support unit 51:
53: drive motor 55: first support member
60: water supply unit 61: water storage tank
62: nozzle

Claims (5)

A solar cell plate on which a plurality of solar cell modules are installed;
A pillar installed upright against the ground;
A support frame installed on the support and supporting the solar cell plate;
The solar cell module according to any one of claims 1 to 3, wherein the solar cell plate is formed of a transparent material capable of transmitting sunlight, is connected to a support unit disposed on one side of the support frame, and is protruded downward to receive water, A condensing unit in which at least one condenser lens part for refracting light to be condensed on the solar cell plate is formed,
And a water supply unit connected to the water storage tank and provided with a nozzle for supplying water to the condensing lens unit,
The light-
And a base portion disposed in parallel with the solar cell plate and formed above the solar cell plate, the base portion being formed to correspond to the shape of the solar cell plate,
The condensing lens unit
The base portion is downwardly protruded downward with respect to the other surface of the base portion so that the water can be received, and is formed into a circular shape and narrowed to have an arc-shaped curvature downward, And is deflected downwardly,
The support unit
A rotating shaft that is coupled to the base unit and rotates so that the light collecting unit disposed above the solar cell plate is separated from the upper portion of the solar cell plate; a driving motor that rotates the rotating shaft; And a support member fixed to the ground. delete A solar cell plate on which a plurality of solar cell modules are installed;
A pillar installed upright against the ground;
A support frame installed on the support and supporting the solar cell plate;
The solar cell module according to any one of claims 1 to 3, wherein the solar cell plate is formed of a transparent material capable of transmitting sunlight, is connected to a support unit disposed on one side of the support frame, and is protruded downward to receive water, A condensing unit in which at least one condenser lens part for refracting light to be condensed on the solar cell plate is formed,
And a water supply unit connected to the water storage tank and provided with a nozzle for supplying water to the condensing lens unit,
The light-
And a base portion disposed in parallel with the solar cell plate and formed above the solar cell plate, the base portion being formed to correspond to the shape of the solar cell plate,
The condensing lens unit
The base part is drawn downward with respect to one surface of the base part so as to receive water and protrudes downward with respect to the other surface of the base part. The base part is drawn in the longitudinal direction of the base part, The width of which is narrowed so as to have an arc-shaped curvature, is protruded so as to be biased to one end of the base portion,
The support unit
A rotating shaft that is coupled to the base unit and rotates so that the light collecting unit disposed above the solar cell plate is separated from the upper portion of the solar cell plate; a driving motor that rotates the rotating shaft; And a support member fixed to the ground. 4. The objective lens of claim 3, wherein the focusing lens unit
A plurality of spaced-apart base portions extending in a direction perpendicular to the longitudinal direction of the base portion,
The base portion
And a concave portion formed so as to have an arc curvature that becomes closer to the upper surface of the base portion as the bottom surface of the base portion between mutually adjacent condenser lens portions is away from the condenser lens portion on both sides. The light-emitting device according to claim 1 or 3, wherein the light-
Wherein the condenser lens unit is installed on the support unit so that the condenser lens unit is in close contact with the solar cell plate so that the water contained in the condenser lens unit absorbs the heat of the solar cell plate and evaporates to cool the solar cell plate. Photovoltaic device.

Images